Method for encoding and decoding data

1 - 10 (canceled). 11 . A method for encoding data, comprising the following steps: receiving a datum representing a numerical value from a predefined maximum value range; selecting a suitable encoding rule for the datum from at least a first predefined encoding rule and a second predefined encoding rule, wherein: the first encoding rule is provided for encoding a first value range whose lower limit corresponds to a lower limit of the maximum value range and whose upper limit corresponds to a binary number that is at least one binary position smaller than a binary number used for a binary representation of an upper limit of the maximum value range, the second encoding rule is provided for encoding a second value range whose lower limit corresponds to a binary number that is at least one binary position larger than a binary number used for a binary representation of the lower limit of the maximum value range, and whose upper limit corresponds to the upper limit of the maximum value range, an encoding rule of the first and second encoding rules whose value range contains the numerical value of the datum is selected, wherein, in a case in which the numerical value is contained in the first and second value ranges of a plurality of the first and second encoding rules, the encoding rule that has the smallest lower value range limit is selected, encoding the numerical value of the datum based on the selected encoding rule including: omitting all binary positions of the numerical value of the datum considered as a binary number that are of lower significance than a binary position used for the binary representation of the lower limit of the value range of the selected encoding rule, and omitting all binary positions of the numerical value of the datum considered as a binary number that are of higher significance than the binary position used for a binary representation of the upper limit of the value range of the selected encoding rule; and extending a binary number of the encoded numerical value at a predefined position by predefined encoding information, which uniquely identifies the selected encoding rule used in each case. 12 . The method according to claim 11 , wherein a number of bits used for encoding the first and second value ranges of the respective first and second encoding rules is uniform for all encoding rules. 13 . The method according to claim 11 , wherein at least a third encoding rule is additionally used, which is provided for encoding a third value range: whose lower limit corresponds to a binary number that is at least one binary position larger than a binary number used for the binary representation of the lower limit of the first value range, and whose upper limit corresponds to a binary number that is at least one binary position smaller than a binary number used for the binary representation of the upper limit of the second value range. 14 . The method according to claim 13 , wherein a number of binary positions located between respective binary representations of the lower limits of the first, second, and third value ranges is: identical or substantially identical, or higher, the higher the numerical values of the lower limits of the respective first, second, and third value ranges are. 15 . The method according to claim 11 , wherein respective lower and/or upper limits of the respective first and second value ranges are dynamically adjusted depending on current boundary conditions. 16 . The method according to claim 11 , wherein negative numerical values to be encoded are identified by a sign bit by which the encoded numerical value is extended at a predefined position. 17 . The method according to claim 11 , wherein the method is used to: encode measured values from sensors, and/or transmit data between a transmitter and a receiver, in a vehicle or in a home automation system. 18 . The method according to claim 17 , wherein each encoded numerical value is transmitted in a single transmission frame during a data transmission. 19 . A method for decoding data, comprising the following steps: receiving a datum including an encoded numerical value and encoding information corresponding to the encoded numerical value; selecting, depending on the encoding information, a predefined decoding rule for decoding the encoded numerical value from at least a first predefined decoding rule and a second predefined decoding rule; shifting the encoded numerical value considered as a binary number in a direction of binary positions of higher significance by a number of binary positions defined by the selected decoding rule, to generate a decoded binary number; wherein the decoded binary number has a predefined number of target binary positions that is at least large enough that a predefined maximum value range used in the encoding of the numerical value can be represented by the decoded binary number, and binary positions of the decoded binary number: that are of higher significance than a highest binary position occupied by the shifted binary number are assigned values of zero, and that are of lower significance than a lowest binary position occupied by the shifted binary number are assigned predefined replacement values. 20 . The method according to claim 19 , wherein, it is provided for the replacement values: that values of 0 are assigned to each binary position of the decoded binary number to be filled by the replacement values, or that values of 1 are assigned to each binary position of the decoded binary number to be filled by the replacement values, or that a value of 1 is assigned to the most significant binary position of the binary positions of the decoded binary number to be assigned replacement values and that a value of 0 is assigned to the other binary positions to be assigned replacement values, or that a value of 0 is assigned to the most significant binary position of the binary positions of the decoded binary number to be assigned replacement values and that a value of 1 is assigned to the other binary positions to be assigned replacement values.